Development and Water Quality in the Kam Tin Basin, Hong Kong

Development and Water Quality in the Kam Tin Basin, Hong Kong

Impacts of Urban Growth on Surface Water and Groundwater Quality (Proceedings of IUGG 99 Symposium HS5, Birmingham, July 1999). IAHS Publ. no. 259, 1999. 315 Development and water quality in the Kam Tin basin, Hong Kong MERVYNPEART Department of Geography, University ofHong Kong, Pokfulam Road, Hong Kong Abstract The economic development of Hong Kong has meant that some once rural areas have been transformed. They have become characterized by low-density housing, open storage and makeshift factories, in addition to agriculture. This change in land use may have consequences for water quality especially as many areas are not connected to mains sewerage. In the Kam Tin basin, under baseflow conditions, water samples from the river in the developing lowland are characterized by much higher concentrations of calcium, magnesium, potassium, nitrate-nitrogen and dissolved phosphoms, than an undisturbed upland tributary. The Kam Tin River also has much greater suspended solids concentrations than the upland stream and a signif­ icant amount of floating debris and rubbish which is never seen in the upland tributary. More attention needs to be given to sewerage and waste disposal in the basin. Runoff pH appears little influenced by the acid rain input. INTRODUCTION Hong Kong has undergone dramatic expansion in terms of population and economic development and is now regarded as a world city. A number of factors have contributed to this growth. For example, the influx of refugees fleeing from China between 1948 and 1951 brought Hong Kong labour, capital and entrepreneurial skills. Similarly, from the 1980s the open door policy of China provided a further impetus. This population growth and economic expansion has not, however, been achieved without cost. Industry, port facilities and people all need space. Consequently, once rural areas have become transformed. As the Planning Department (1995, p.50) state "there are already extensive urban fringe areas characterized by proliferations of mixed farming activities, village houses, Spanish style villas, open storage and make-shift factories/go-downs. The result is a highly degraded and disorderly landscape with considerable problems of pollution, traffic congestion and flooding". They add that such areas are now committed to urban use and plans should be made for upgrading. One such area is the Kam Tin plain in the North West New Territories. As Jim (1997) reports much of the lowlands were given over to agriculture before the 1970s but from this date, the need for housing and urban orientated uses have intruded into the farmlands. This paper examines the spatial variation of water quality in the urbanizing Kam Tin basin, North West New Territories, Hong Kong. STUDY BASIN AND METHODS The Kam Tin basin is located in the North West New Territories of Hong Kong and the drainage system has its origin on the western slopes of Tai Mo Shan and flows into 316 Mervyn Peart Deep Bay. In terms of physiography the basin has two distinct parts: steep uplands and an alluvial plain. Upland areas are currently well vegetated with grass, shrubs and woodland while the alluvial plains until recently were dominated by agriculture. Kam Tin existed as a community from the Hau Chau period (AD 951-959) and therefore the area has a long history of settlement. With the development of Hong Kong, agricultural land use has come under pressure (Jim, 1997). An increasing amount of agricultural land has been given over to open storage. There has also been expansion of low density suburban style dwellings. Livestock farming has also declined in the basin due to the introduction of the Water Pollution Control Ordinance of 1980. It led to the creation of Water Quality Objectives, which were applied to this basin from December 1st, 1990. The Waste Disposal (Livestock Waste) Regulations of 1988 are also having an increasing impact, especially with more rigorous enforcement. Sampling for water quality has taken place in an upland stream and downstream on the alluvial plain; the sites are shown in Fig. 1. The upland basin at the Kadoorie Agricultural Research Centre (KARC) is developed on steep slopes underlain by igneous rocks with a well developed woodland/shrubland vegetation cover. The basin outlet is around 200 m P.D. and there is no settlement in the catchment. Downstream from this site, samples have been collected near Kam Tin at which point the basin has an area of 11.72 km2. At this point an alluvial floodplain has formed and there is significant human development of the plain which accounts for around 50% of the Fig. 1 Location of sampling sites. Development and water quality in the Kam Tin basin, Hong Kong 317 basin. There is a population of over 15 000 and settlement of low and high density accounts for around 47% of the land area. A large number of open storage sites have appeared since the 1980s. For example, in the NW New Territories open storage sites increased from 158 in 1984, to 1024 by 1990. Most of the houses and other buildings are not connected to a public sewer system. Wells dug to around 10 m for irrigation near Kam Tin remained in soft alluvial sediments. A sampling programme has been undertaken to monitor suspended solids, pH, specific electrical conductance, aluminium, magnesium, calcium, potassium and phosphorus at both sites. All samples were collected under baseflow conditions to avoid the complications introduced by rainfall generated storm events. Suspended solids were measured by means of filtration using pre-weighed GFC filter papers. Calcium, magnesium, aluminium, potassium and phosphoms were determined by means of ICP. after filtration through 0.45 pm filter papers. Nitrate-N was determined using an ion selective electrode. Specific electrical conductance was determined using a Schott Gerate meter, while pH was measured using a glass electrode calibrated at pH 7 and 4. Two further observations were made. Rainfall at the upland basin at KARC, was collected daily after rainfall and its pH determined by glass electrode calibrated at pH 7 and 4. Floating debris and rubbish was counted and classified at the Kam Tin site. RESULTS The water quality data for the baseflow sampling programme are presented in Table 1. Downstream changes are evident in all determinands except pH which is close to neutral at both sampling sites. Electrical conductance shows the upland stream to be dilute in terms of dissolved material, the mean value at Kam Tin being over 18 times higher than that measured in the headwaters. The individual cations of potassium, calcium, aluminium and magnesium are all present at higher levels downstream. Suspended solids are also greatly enhanced downstream with, for example, a mean conc­ entration of 88.85 mg l"1 at Kam Tin compared to only 11.01 mg l"1 at KARC. Median values of 54.38 and 8.30 mg l"1 upstream and downstream respectively tell a similar story. It is also of interest to consider rainfall pH monitored at the upland site. The volume weighted average is 4.53 while the median value is pH 4.45. Of the 98 rainfall days in the data set only 8 experienced rainfall pH of 5.6 or greater, amounting to 7.8% Table 1 Water quality from 1997-1998 in the Kam Tin basin. Sampling site pH Elect. K Ca Mg Al P N03 S.S.** cond. (mg l"1) (mg I"1) (mg r1) (mg l"1) (mg l"1) (mg l"1) (mg r1) (uS cm"1) KARC Mean 6.74 41.7 0.53 1.85 0.40 0.05 0.21 3.34 11.01 Std. dev. 0.24 5.6 0.25 0.62 0.10 0.02 0.14 2.40 7.56 No. of samples 67 67 63 67 67 67 41 49 57 Kam Tin Mean 7.32 757.4 17.92 29.95 1.63 0.10 6.16 10.56 88.85 Std. dev. 0.23 309.3 6.43 6.51 1.00 0.02 3.30 10.55 106.17 No. of samples 91 91 91 91 91 91 80 44 77 S.S.** = suspended solids. 318 Mervyn Peart of the sample. -Acid rain occurs in the basin but buffering occurs in the hydrological cycle because the stream and river are close to neutral, as evidenced by the mean and median pH at KARC of 6.74 and 6.78. Downstream at Kam Tin, baseflow pH average and median values are 7.32 and 7.37 respectively. During May 1998, in excess of 8 m3 of floating rubbish and debris accumulated under and against the bridge at Kam Hing Wai, part of the settlement of Kam Tin. This material was washed down during storms in the previous week. Some 897 pieces of debris/rubbish were counted and classified with plastic distilled water bottles of less than 2 1 forming the largest category (163 pieces or 18.2%). If other categories of drinks and miscellaneous contents are included this volume of plastic bottle accounted for 31.7% of the samples (284 pieces). The next most common type of debris were polystyrene food containers (107 pieces or 11.9%) followed by drink boxes (84 pieces or 9.4%i). Detergent, shampoo and other such containers accounted for 68 pieces or 7.6%o of the sample. A wide range of other rubbish was recorded and included tin cans, motor oil containers, glass bottles and jars, plastic pots and jars, plastic bags, flip-flops, light bulbs, wood, aerosol cans and basket-balls. Large debris not included in the count were car tyres and wheels, a 100 gallon oil drum, several 20 litre drums, wood pallets, 14 cupboard draws, and a small polystyrene surfboard.

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